X-Git-Url: https://git.gag.com/?a=blobdiff_plain;f=gnuradio-core%2Fsrc%2Flib%2Fgeneral%2Fgr_clock_recovery_mm_cc.cc;h=60e3dd13d59659b9f6623834e1d4f4fef03fd4b6;hb=ea29b08aeb54227e6628f655ccfdb96fe4d8c378;hp=aee89039a956250881efa2e84d4d62c3344f4981;hpb=09a1e803a9e6587c78d20cdf16891e5295874668;p=debian%2Fgnuradio diff --git a/gnuradio-core/src/lib/general/gr_clock_recovery_mm_cc.cc b/gnuradio-core/src/lib/general/gr_clock_recovery_mm_cc.cc index aee89039..60e3dd13 100644 --- a/gnuradio-core/src/lib/general/gr_clock_recovery_mm_cc.cc +++ b/gnuradio-core/src/lib/general/gr_clock_recovery_mm_cc.cc @@ -29,6 +29,8 @@ #include #include #include +#include + // Public constructor @@ -133,47 +135,73 @@ gr_clock_recovery_mm_cc::general_work (int noutput_items, float mm_val=0; gr_complex u, x, y; - while(oo < noutput_items && ii < ni) { - d_p_2T = d_p_1T; - d_p_1T = d_p_0T; - d_p_0T = d_interp->interpolate (&in[ii], d_mu); - - d_c_2T = d_c_1T; - d_c_1T = d_c_0T; - d_c_0T = slicer_0deg(d_p_0T); - - x = (d_c_0T - d_c_2T) * conj(d_p_1T); - y = (d_p_0T - d_p_2T) * conj(d_c_1T); - u = y - x; - mm_val = u.real(); - out[oo++] = d_p_0T; - - // limit mm_val - if (mm_val > 1.0) - mm_val = 1.0; - else if (mm_val < -1.0) - mm_val = -1.0; - - d_omega = d_omega + d_gain_omega * mm_val; - if (d_omega > d_max_omega) - d_omega = d_max_omega; - else if (d_omega < d_min_omega) - d_omega = d_min_omega; - - d_mu = d_mu + d_omega + d_gain_mu * mm_val; - ii += (int)floor(d_mu); - d_mu -= floor(d_mu); - - if(d_verbose) { - printf("%f\t%f\n", d_omega, d_mu); - } - - // write the error signal to the second output - if (write_foptr) + // This loop writes the error to the second output, if it exists + if (write_foptr) { + while(oo < noutput_items && ii < ni) { + d_p_2T = d_p_1T; + d_p_1T = d_p_0T; + d_p_0T = d_interp->interpolate (&in[ii], d_mu); + + d_c_2T = d_c_1T; + d_c_1T = d_c_0T; + d_c_0T = slicer_0deg(d_p_0T); + + x = (d_c_0T - d_c_2T) * conj(d_p_1T); + y = (d_p_0T - d_p_2T) * conj(d_c_1T); + u = y - x; + mm_val = u.real(); + out[oo++] = d_p_0T; + + // limit mm_val + mm_val = gr_branchless_clip(mm_val,1.0); + d_omega = d_omega + d_gain_omega * mm_val; + d_omega = d_omega_mid + gr_branchless_clip(d_omega-d_omega_mid, d_omega_relative_limit); // make sure we don't walk away + + d_mu = d_mu + d_omega + d_gain_mu * mm_val; + ii += (int)floor(d_mu); + d_mu -= floor(d_mu); + + // write the error signal to the second output foptr[oo-1] = gr_complex(d_mu,0); - - if (ii < 0) // clamp it. This should only happen with bogus input - ii = 0; + + if (ii < 0) // clamp it. This should only happen with bogus input + ii = 0; + } + } + // This loop does not write to the second output (ugly, but faster) + else { + while(oo < noutput_items && ii < ni) { + d_p_2T = d_p_1T; + d_p_1T = d_p_0T; + d_p_0T = d_interp->interpolate (&in[ii], d_mu); + + d_c_2T = d_c_1T; + d_c_1T = d_c_0T; + d_c_0T = slicer_0deg(d_p_0T); + + x = (d_c_0T - d_c_2T) * conj(d_p_1T); + y = (d_p_0T - d_p_2T) * conj(d_c_1T); + u = y - x; + mm_val = u.real(); + out[oo++] = d_p_0T; + + // limit mm_val + mm_val = gr_branchless_clip(mm_val,1.0); + + d_omega = d_omega + d_gain_omega * mm_val; + d_omega = d_omega_mid + gr_branchless_clip(d_omega-d_omega_mid, d_omega_relative_limit); // make sure we don't walk away + + d_mu = d_mu + d_omega + d_gain_mu * mm_val; + ii += (int)floor(d_mu); + d_mu -= floor(d_mu); + + if(d_verbose) { + printf("%f\t%f\n", d_omega, d_mu); + } + + if (ii < 0) // clamp it. This should only happen with bogus input + ii = 0; + } } if (ii > 0){